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郭保林 副教授
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Dr. Baolin GUO(郭保林)
Group Leader II of Biomedical Polymers Group
Email: baoling@mail.xjtu.edu.cn
Tel: +86-29-83395361
Group of Biomedical Polymers 
(生物医用高分子材料研究小组)

 

      郭保林博士于2011年毕业于瑞典皇家理工学院(KTH),获得高分子技术博士学位,现任西安交通大学生物工程与再生医学研究中心生物医用高分子材料小组主任,博士生导师,主要从事生物医用高分子材料的研究,如可降解的水凝胶和可降解的导电高分子材料、和可降解多孔聚合物支架的制备及药物的控制释放体系的研究等。已经以第一作者或者通讯作者在Progress in Polymer Science, ACS Nano, Biomaterials, Chemistry of Materials, Biomacromolecules, Macromolecules, ACS Macro Letters, Polymer Chemistry, Acta Biomaterialia, ACS applied Materials & Interfaces 和Journal of Materials Chemistry B等国际期刊发表论文36篇, SCI 引用600余次。


Employment
2013.09- now Group Leader II (研究小组主任II类),Center for Biomedical Engineering and Regenerative Medicine Frontier Institute of Science and Technology (FIST),Xi’an Jiaotong University (XJTU), China
2011.12- 2013.08 Group Leader III (研究小组主任III类),Center for Biomedical Engineering and Regenerative Medicine Frontier Institute of Science and Technology (FIST),Xi’an Jiaotong University (XJTU), China

Education
2008.09-2011.12 Ph. D. in Polymer Chemistry and Physics, KTH-Royal Institute of Technology, Sweden
2007.09-2008.09 Ph. D. in Polymer Chemistry and Physics,Dalian University of Technology, China
2004.09-2007.07 M.S. in Polymer Chemistry and Physics, Henan University, China

Awards
2010 The best poster prize and travel grant from Materials Day
2007 “Hou Jingru” Scholarship
2003 The outstanding graduate in Henan Province
2002 The first-class “JinSong” Scholarship

Research Interests
• Degradable and electrically conducting polymers: synthesis, scaffold design and application
(可降解导电高分子材料的合成、支架制备和在组织工程中的应用)
• Self-assembly of amphiphilic polymers
(高分子材料的自组装)
• Smart hydrogels, injectable hydrogels and controlled delivery systems
(智能水凝胶和可注射水凝胶及其控制释放系统)
• Polymer synthesis via ATRP, ROP, RAFT, SET-LRP, and photopolymerization
(高分子的可控合成)

代表论文:

 

1. Guo B.L., Glavas L., Albertsson A-C. Biodegradable and Electrically Conducting Polymers for Biomedical Applications, Progress in Polymer Science 2013, 38:1263-1286.

2. Wang L., Wu Y, Guo B.L.*, Ma P.X.*. Nanofiber Yarn/Hydrogel Core-Shell Scaffolds Mimicking Native Skeletal Muscle Tissue for Guiding 3D Myoblast Alignment, Elongation and Differentiation, ACS Nano, 2015, DOI: 10.1021/acsnano.5b03644

3. Xie M.H., Wang L., Guo B.L.*, Wang Z., Chen Y.E., Ma P.X.*. Ductile electroactive biodegradable hyperbranched polylactide copolymers enhancing myoblast differentiation, Biomaterials, 2015, 71,158-167

4. Guo B.L., Finne-Wistrand A., Albertsson A-C. Degradable and electroactive hydrogels with tunable electrical conductivity and swelling behavior. Chemistry of Materials 2011, 23(5):1254-1262.

5. Guo B.L., Finne-Wistrand A., Albertsson A-C. Simple route to size-tunable degradable and electroactive nanoparticles from the self-assembly of conducting coil-rod-coil triblock copolymers. Chemistry of Materials 2011, 23(17):4045-4055.

6. Xie M.H., Wang L., Ge J., Guo B.L.*, Ma P.X.*. Strong Electroactive Biodegradable Shape Memory Polymer Networks Based on Star-Shaped Polylactide and Aniline Trimer for Bone Tissue Engineering, ACS Applied Materials & Interfaces, 2015, 7(12):6772-6781

7. Wu Y., Guo B.L.*, Ma P.X.*. Injectable Electroactive Hydrogels Formed via Host-Guest Interactions, ACS Macro Letters 2014, 3: 1145-1150.

8. Zhao J., Zhao X., Guo B.L.*, Ma P.X.*. Multi-functional Interpenetrating Polymer Network Hydrogels Based on Methacrylated Alginate for Delivery of Small Molecule Drugs and Sustained Protein Release, Biomacromolecules 2014, 15:3246-3252.

9. Li L, Ge J., Wang L., Guo B.L.*, Ma P.X.*. Electroactive nanofibrous biomimetic scaffolds by thermal induced phase separation, Journal of Materials Chemistry B, 2014, 2:6119-6130

10. Wu Y., Wang L., Guo B.L.*, Ma P.X.*. Injectable biodegradable hydrogels and microgels based on methacrylated poly(ethylene glycol)-co-poly(glycerol sebacate) multi-block copolymers: synthesis, characterization, and cell encapsulation, Journal of Materials Chemistry B, 2014, 2, 3674-3685

11. Li L., Ge J., Guo B.L.*, Ma P.X.*. In situ forming biodegradable electroactive hydrogels, Polymer Chemistry 2014, 5:2880–2890

12. Guo B.L., Sun Y., Finne-Wistrand A., Mustafa K., Albertsson A-C. Electroactive tubular porous scaffolds with degradability and non-cytotoxicity for neural tissue regeneration. Acta Biomaterialia 2012, 8(1):144-153.

13. Guo B.L., Finne-Wistrand A., Albertsson A-C. Electroactive hydrophilic polylactide surface by covalent modification with tetraaniline. Macromolecules, 2012 45(2):652-659.

14. Guo B.L., Finne-Wistrand A., Albertsson A-C. Enhanced electrical conductivity by macromolecular architecture: Hyperbranched electroactive and degradable block copolymers based on Poly(epsilon-caprolactone) and aniline pentamer. Macromolecules 2010, 43(10):4472-4480.

15. Guo B.L., Finne-Wistrand A., Albertsson A-C. Universal two-step approach to degradable and electroactive block copolymers and networks from combined ring-opening polymerization and post-functionalization via oxidative coupling reactions. Macromolecules 2011, 44(13):5227-5236.

课题组主页: http://gr.xjtu.edu.cn/web/baoling

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